Latest Articles for Materials Science

Examining how liquid and gas phases exist together under varying energy conditions.

A new method for estimating energy barriers in transitions between stable states.

Research on ultrathin BaTiO3 films shows promise for future electronic devices.

A new framework addresses uncertainty and rules in predictions through BENN.

This article explores the behavior of particle densities in fermionic and bosonic systems.

Examining the intricate world of infinite-layer nickelates and their superconducting potential.

Neural networks enhance design processes for better sound control in acoustics.

SeqHT optimizes quantum simulations by simplifying complex calculations for better results.

New insights into non-reciprocal behavior in diffusion can transform energy applications.

Research reveals new insights into fractional Chern insulators in layered graphene structures.

Exploring the connection between fractal lattices and topological insulators.

Investigating how rhombohedral graphene's unique properties impact technology and science.

A new approach uses machine learning to improve thin film property measurements.

Discover how scientists are designing new protein structures for various applications.

Exploring the relationship between many-body localization and thermal states in physics.

Scientists uncover chaotic behaviors in quantum systems through advanced models and studies.

Altermagnetism reveals unique behaviors in magnetic materials and their potential applications.

New methods improve the search for stable atomic arrangements.

This study explores the use of ensemble methods in predicting material properties.

Machine learning techniques enhance current density reconstruction from magnetic fields.

Exploring new methods for solving nonlocal interactions in various fields.

Research reveals interesting light interactions in moiré superlattices for electronic applications.

Research on TaS2 reveals new insights into charge density waves and electronic behavior.

Study reveals how hydrogel particles respond to pressure and their mechanical properties.

A look at how defects affect material properties at high temperatures.

Research into moiré TMDs reveals complex electronic behaviors and new phases.

An overview of superconductors and their significance in technology.

A new method enhances RF signal detection with diamond spin defects.

A study on electron spin properties in EuZn Sb enhances material knowledge.

Research on memristors enhances memory systems for neuromorphic computing.

Learn how CANNs improve the understanding of material behavior under stress.

CsGeX materials exhibit unique properties for enhanced electronic applications.

Research on bilayer nickelates reveals complex magnetic and electronic behaviors.

MnTe offers unique magnetic properties, paving the way for advanced technologies.

Discover how altermagnets like Ce X host unique particles and their potential uses.

Research reveals the impact of friction laws on material rupture behavior.

Machine learning tools like CHGNet reshape materials research and predictions.

Study reveals how curved graphite responds to magnetic fields.

A look into how domain walls form in materials under ultrafast conditions.

Optical thermometry provides new ways to measure temperature in cryogenic environments.